addlink Gaming Series
X70 GEN3X4 NVMe
addgame X70 is addlink’s gaming series SSD. The X70 is covered by a slim and a eye-catching heatsink which reduces the SSD’s temperatures for excellent cooling. With 3D NAND, a DRAM Cache Buffer and LDPC ECC technologies, it maintains extremely high speeds and data integrity during even the most intense gaming, redering, overclocking, and other high demand applications.
Lightening speed with 3D NAND
addlink's X70 M.2 PCIe follows NVMe and utilizes the PCIe Gen3 x 4 interface, meaning four lanes are used for transmitting and receiving data simultaneously, resulting in compelling performance of Read/Write up to 3500/3000MB/s*.and random Read/Write 510K/500K IOPS.
Metal heatsink with superior cooling
addlink X70 consists of a PCB, and metal with diamond-cut heatsink. Combined, heatsink can drop typical temps effectively compared to bare M.2 SSDs, with some scenarios seeing even larger heat reduction.
Heat-conducting silica gel pad
3D NAND M.2 PCIe
RGB lighting effect
X70 has built-in water flowing lighting with RAINBOW mixed color effect*. The colorful lighting change can be presented at once. Then you are able to enjoy the fun of RAINBOW lighting effect immediately and possess the unique RGB high speed M.2 solid state drive. For ease of use, the X70 is compatible with most motherboards from all the major brands.
aim at high-end applications
Experience the unprecedented performance for heavy workloads and engineering applications with the highly reliable X70 SSD, available in high capacity up to 2TB with high endurance up to 1600TBW. The X70 boasts a cutting-edge 3D NAND-based architecture that delivers the next-generation performance in a compact M.2 form factor.
* Note: addlink X70 lighting control support through the listed third-party software may vary between motherboard models.
Please make sure the software version is up to date.
*According to addlink inside test by CrystalDiskMark software, read and write speed depend on the device, interface, usage and other factors so that actual performance may be lower.